Sprinkler System Installer Level 3

Sprinkler System Installer Level 3

Sprinkler System Installer Unit: A9 Job Planning Level: Three Duration: 7 hours Theory: Practical: 7 hours 0 hours Overview: Upon completion of this unit the apprentice will demonstrate knowledge of the procedures to plan and organize jobs and to produce material take-off lists. Percent of Objectives and Content: Unit Mark (%) 1. Define terminology associated with job planning activities. 2. Identify sources of information relevant to job planning. a. Documentation b. Drawings c. Related professionals d. Clients 3. Describe the considerations for determining job requirements. a. Personnel b. Tools and equipment c. Materials d. Permits 4. Describe the procedures used to plan job tasks. a. Scheduling b. Estimating c. Coordinating site access 5. Describe the procedures used to receive and verify delivered materials. 6. Describe the procedures used to store, organize and maintain inventory. 7. Describe the procedures used to interpret and extract information from drawings. 8. Identify the purpose of submittals and shop drawings, and describe the procedures used to interpret them. 1

9. Identify the types of material take-off lists and describe their applications and the procedures used to produce them. a. Material estimation b. Material installation 10. Describe the procedures used to prepare work sites. a. Erecting barricades and flagging b. Identifying hazards c. Locating service points d. Locating isolation points *** 2

Sprinkler System Installer Unit: A10 Commissioning Level: Three Duration: 14 hours Theory: Practical: 7 hours 7 hours Overview: Upon completion of this unit the apprentice will demonstrate knowledge of the procedures to commission water supply systems, piping installation, and detection, protection and control systems. Percent of Objectives and Content: Unit Mark (%) 1. Define terminology associated with commissioning of systems and installations. 2. Identify hazards and describe safe work practices pertaining to the commissioning of water supply systems, piping installations, and detection, protection and control systems. 3. Interpret codes, standards and regulations pertaining to the commissioning of water supply systems, piping installations, and detection, protection and control systems. 4. Interpret information pertaining to the commissioning of water supply systems, piping installations, and detection, protection and control systems, found on drawings and specifications. 5. Identify tests to be performed on water supply systems. 1 a. Hydrostatic b. Chlorination c. Flushing d. Acceptance test of fire pump e. Component operation Cross connection control assemblies Water tanks Reservoirs 6. Identify tests and checks to be performed on piping installations. 1 a. Hydrostatic b. Pneumatic c. Seal of penetrations d. Placement of hangers, brackets, supports and restraints e. Grade and elevation 3

f. Flushing g. Labeling h. Blank testing gaskets i. Escutcheons 7. Identify tests and checks to be performed on detection, protection and control systems. a. Hydrostatic b. Pneumatic c. Location, operation and performance of components Valves Compressors Quick opening devices Detection devices Signal initiating devices 8. Describe the procedures used to commission water supply systems. 9. Describe the procedures used to commission piping installations. 10. Describe the procedures used to commission detection, protection and control systems. 11. Demonstrate the commissioning of water supply systems, piping installations, and detection, protection and control systems. 30% *** 4

Sprinkler System Installer Unit: B7 Mathematics III Level: Three Duration: 14 hours Theory: Practical: 14 hours 0 hours Overview: Upon completion of this unit the apprentice will demonstrate an understanding of the principles of mathematics. The following topics will be covered: review of level one and level two mathematics, piping offsets, length of travel for basic and other offsets.. Percent of Objectives and Content: Unit Mark (%) 1. Review mathematics units C1 and C2 as necessary. 20% 2. Describe piping offsets. 30% a. Formula b. Length of travel c. Basic d. Other Parallel Equal spread Unequal spread Rolling 3. Calculate length of travel for basic offsets in imperial and SI units. 30% 4. Calculate length of travel for various other offsets in imperial and SI units. 20% *** 5

Sprinkler System Installer Unit: B8 Science III and Basic Hydraulic Calculations Level: Three Duration: 20 hours Theory: Practical: 20 hours 0 hours Overview: Upon completion of this unit the apprentice will demonstrate knowledge of science in the trade and industry. Topics include: principles of electricity, direct and alternate current flow of electricity, simple electrical circuits, electromagnetic devices, pressure and tamper switches, and the importance and purpose of hydraulic calculations and the factors involved. Percent of Objectives and Content: Unit Mark (%) 1. Describe the basic principles of electricity. 2% a. Electron theory b. Amps c. Volts d. Ohms 2. Explain the principles of direct current flow of electricity. 3% 3. Explain the principles of alternating current flow of electricity. 2% 4. Draw simple electrical circuits. 3% a. Series b. Parallel 5. Explain the principles of electromagnetic devices. 3% a. Transformers b. Solenoids 6. Describe the operation and function of flow, pressure and tamper switches. 2% 7. Define terminology associated with hydraulic calculations as they apply to the Sprinkler System Installer trade. a. Hydraulic calculation b. Equivalent length c. Friction loss d. Static pressure e. Residual pressure f. Hand hose allowance 6 3%

g. Design densities h. Design area i. System demand 8. Describe the flow of water. 2% a. Laminar b. Turbulent c. Velocity d. Friction e. Pressure f. Pressure drop g. Equivalent length h. Flow rate 9. Calculate water pressure problems. 40% a. Effect of change of height on pressure b. Effect of friction loss on pressure 10. Discuss the systems layout of a hydraulically calculated sprinkler system. 2% a. NFPA codes and regulations b. Water service requirements c. Type of pipe Pipe sizes Branch lines Cross mains d. Design densities, design area e. Minimum operating pressure 11. Describe the effects of volume, flow and pressure through a venturi. 2% 12. Describe the importance of water densities over a prescribed area. 3% 13. List and describe the classification of occupancies. 2% 14. Identify applicable codes and regulations regarding the layout for hydraulic calculated sprinkler system. 3% 15. Determine available water supply. 2% 16. Identify system requirements regarding pipe sizes, branch lines and cross mains. 3% a. Wet b. Dry c. Pre-action/deluge 17. Identify sprinkler heads that can be used with this system. 2% 18. Identify minimum operating pressure of system. 3% 19. Identify type of piping to be used. 2% 20. Explain requirements for future additional heads. 3% 7

21. Describe procedures used to perform a flow test at municipal hydrants. 2% 22. Describe the occupancy hazard design requirements for pipe schedule systems. 3% *** 8

Sprinkler System Installer Unit: B9 Blueprint Reading and Sketching III Level: Three Duration: 20 hours Theory: Practical: 10 hours 10 hours Overview: Upon completion of this unit the apprentice will demonstrate knowledge of the procedures to complete and label basic drawings of typical sprinkler installations and to develop a materials list from information contained in construction drawings. Percent of Objectives and Content: Unit Mark (%) 1. Define terminology associated with developing materials list from construction drawings. 2. Describe the procedures used to create working plan and elevation view drawings of a typical sprinkler system installation. a. Establish design criteria b. Sprinkler head location c. Distribution piping d. Scaling and dimensioning e. Symbols and abbreviations f. Riser detail 3. Describe the procedures used to modify drawings of a sprinkler system installation to create as-built drawings. 4. Describe the procedures used to compile a materials list from information found on drawings. 1 30% 1 5. Identify the criteria used to estimate labour requirements. 1 6. Demonstrate the ability to complete and label basic drawings of sprinkler installations and to develop a materials list from information contained in construction drawings. 1 *** 9

Sprinkler System Installer Unit: E9 Dry and Wet Chemical Extinguishing Systems Level: Three Duration: 17 hours Theory: Practical: 14 hours 3 hours Overview: Upon completion of this unit the apprentice will demonstrate knowledge of dry and wet chemical extinguishing systems, their applications and operating principles, and of the installation requirements and associated test procedures for dry and wet chemical extinguishing systems. Percent of Objectives and Content: Unit Mark (%) 1. Define terminology associated with dry and wet chemical extinguishing systems. 2. Identify hazards and describe safe work practices pertaining to dry and wet chemical extinguishing systems. 3. Interpret codes, standards and regulations pertaining to dry and wet chemical extinguishing systems. 4. Interpret information pertaining to dry and wet chemical extinguishing systems found on drawings and specifications. 5. Identify tools and equipment relating to dry and wet chemical extinguishing systems, and describe their applications and procedures for use. 6. Identify types of dry and wet chemical extinguishing agents and systems and describe their characteristics and applications. 7. Describe the operating principles of dry and wet chemical extinguishing systems. 1 a. Methods of dispensing dry and wet chemicals Hand hose line systems Fixed piping systems b. Action of expellant gas c. Extinguishing properties 8. Describe fixed pipe systems. a. Total flooding b. Local application 10

9. Identify installation requirements of dry and wet chemical extinguishing systems. 1 a. Materials b. Supports and hangers c. System actuation d. Testing e. Manufacturers specifications/training f. Handling and storage 10. Describe the procedures used to install dry and wet chemical extinguishing systems. 11. Explain the requirements and procedures for acceptance testing of dry and wet chemical extinguishing systems. 12. Describe the procedures used to commission dry and wet chemical extinguishing systems. 13. Demonstrate the operation, installation and test procedures of dry and wet chemical extinguishing systems. 20% *** 11

Sprinkler System Installer Unit: E10 Water Spray Fixed Systems Level: Three Duration: 8 hours Theory: Practical: 4 hours 4 hours Overview: Upon completion of this unit the apprentice will demonstrate knowledge of water spray fixed systems and their applications, operating principles, installation requirements, and associated test procedures. Percent of Objectives and Content: Unit Mark (%) 1. Define terminology associated with water spray fixed systems. 2. Identify hazards and describe safe work practices pertaining to water spray fixed systems. 3. Interpret codes, standards and regulations pertaining to water spray fixed systems. 4. Interpret information pertaining to water spray fixed systems found on drawings and specifications. 5. Identify tools and equipment relating to water spray fixed systems, and describe their applications and procedures for use. 6. Identify types of water spray fixed systems and describe their operating principles and applications. a. Water supply required b. Design of system Water spray nozzles Nozzle orientation and placement c. Exposure protection 7. Identify the considerations for selecting components for water spray fixed systems. 8. Identify installation requirements of water spray fixed systems. a. Materials b. Supports and hangers c. System actuation d. Testing e. Manufacturers specifications/training 12

f. Handling and storage 9. Describe the procedures used to layout and install water spray fixed systems and components. a. Prepares materials b. Installs supports c. Installs system actuation d. Performs tests and makes adjustments 10. Describe the system controls for the water spray fixed system and their installation requirements. 11. Explain the requirements for drainage of the system. 12. Describe the procedures used to service and maintain water spray fixed systems. 13. Explain the requirements and procedures for acceptance testing of water spray fixed systems. 14. Describe the procedures used to commission water spray fixed systems. *** 13

Sprinkler System Installer Unit: E11 Water Mist Systems Level: Three Duration: 10 hours Theory: Practical: 7 hours 3 hours Overview: Upon completion of this unit the apprentice will demonstrate knowledge of water mist systems, their applications, operating principles, installation requirements and associated test procedures. Percent of Objectives and Content: Unit Mark (%) 1. Define terminology associated with water mist systems. 2. Identify hazards and describe safe work practices pertaining to water mist systems. 3. Interpret codes, standards and regulations pertaining to water mist systems. 4. Interpret information pertaining to water mist systems found on drawings and specifications. 5. Identify tools and equipment relating to water mist systems, and describe their applications and procedures for use. 6. Identify types of water mist systems and describe their operating principles and applications. a. Water supply required b. Design of system c. Characteristics of water spray nozzles d. Exposure protection 7. Identify the considerations when selecting components for water mist systems. 8. Identify installation requirements of water mist systems. a. Materials b. Supports and hangers c. System actuation d. Testing e. Manufacturers specifications/training f. Handling and storage 14

9. Describe the procedures used to layout and install water mist systems and components. a. Prepare materials b. Install supports c. Install system actuation d. Performs tests and makes adjustments 10. Identify system controls for water mist systems and their installation requirements. 11. Explain the requirements for drainage of the system. 12. Describe the procedures used to service and maintain water mist systems. 13. Explain the requirements and procedures for acceptance testing of water mist systems. 14. Describe the procedures used to commission water mist systems. 15. Demonstrate the operation, installation and test procedures for water mist systems. *** 15

Sprinkler System Installer Unit: E12 Foam Systems Level: Three Duration: 10 hours Theory: Practical: 7 hours 3 hours Overview: Upon completion of this unit the apprentice will demonstrate knowledge of foam systems, their applications and operating principles, installation requirements, and associated test procedures. Percent of Objectives and Content: Unit Mark (%) 1. Define terminology associated with foam systems. 2. Identify hazards and describe safe work practices pertaining to foam systems. a. Environmental considerations Containment disposal 3. Interpret codes, standards and regulations pertaining to foam systems. 4. Interpret information pertaining to foam systems found on drawings and specifications. 5. Identify tools and equipment relating to foam systems, and describe their applications and procedures for use. 6. Identify foam systems and describe their operating principles and applications. a. Water supply required b. Design of system c. Characteristics and selection of discharge methods d. Exposure protection 7. Describe the installation requirements of foam systems. a. Materials b. Supports c. System actuation d. Testing e. Manufacturers specifications/training f. Handling and storage 16

8. Identify system controls for foam systems and describe their installation requirements. 9. Identify types of concentrate used in foam systems and describe their characteristics and applications. 10. Describe the procedures used to layout and install foam systems and components. a. Foam concentrate storage tank and trim b. Reserve tank and trim c. Foam concentrate pump d. Check valves, strainers and orifice plates e. Valves Wet Dry Pre-action/deluge f. Piping materials System Concentrate g. Cross connection control devices h. Discharge methods 11. Describe the procedures used to fill foam concentrate tanks. 12. Explain the requirements for drainage of the system. 13. Explain the operation of a balanced pressure proportioning system. 14. Explain the operation of a pressure proportioning tank with and without diaphragm. 15. Describe the procedures used to test and maintain foam systems. 16. Explain the requirements and procedures for acceptance testing of foam systems. 17. Describe the procedures used to commission foam systems. 18. Demonstrate the operation, installation and test procedures for foam systems. *** 17

Sprinkler System Installer Unit: E13 Carbon Dioxide Extinguishing Systems Level: Three Duration: 10 hours Theory: Practical: 7 hours 3 hours Overview: Upon completion of this unit the apprentice will demonstrate knowledge of carbon dioxide extinguishing systems, their applications, operating principles, installation requirements and associated test procedures. Percent of Objectives and Content: Unit Mark (%) 1. Define terminology associated with carbon dioxide extinguishing systems. 2. Identify hazards and describe safe work practices pertaining to carbon dioxide extinguishing systems. 3. Interpret codes, standards and regulations pertaining to carbon dioxide extinguishing systems. 4. Interpret information pertaining to carbon dioxide extinguishing systems found on drawings and specifications. 5. Identify tools and equipment relating to carbon dioxide extinguishing systems, and describe their applications and procedures for use. 6. Explain the properties of carbon dioxide. 7. Identify carbon dioxide systems and describe their operating principles and applications. a. Design of system b. Exposure protection c. Methods of system operation Local application Total flooding Hand directed operation 8. Identify carbon dioxide system components and describe their purpose and operation. a. Alarms and indicators b. Life safety provisions c. Discharge nozzles 18

d. Piping and fittings e. Supports f. Tanks and manifolds g. Release mechanisms h. Detection devices 9. Identify types of carbon dioxide extinguishing systems and describe their characteristics and applications. a. Low pressure b. High pressure 10. Describe the procedures used to calculate the quantity of carbon dioxide extinguishing agent required for a system as per manufacturing specifications. 11. Identify the installation requirements for carbon dioxide extinguishing systems and components. a. Materials b. Supports c. System actuation d. System supervision e. Testing f. Manufacturers specifications/training g. Handling and storage 12. Describe the procedures used to install carbon dioxide extinguishing systems and components. 13. Describe the procedures used to service, maintain and remove carbon dioxide extinguishing systems as per manufacturing specifications. 14. Explain the requirements and procedures for acceptance testing of carbon dioxide extinguishing systems as per manufacturing specifications. 15. Describe the procedures used to commission carbon dioxide extinguishing systems as per manufacturing specifications. 16. Demonstrate the operation, installation, and test procedures for carbon dioxide extinguishing systems. *** 19

Sprinkler System Installer Unit: E14 Clean Agent Extinguishing Systems Level: Three Duration: 10 hours Theory: Practical: 7 hours 3 hours Overview: Upon completion of this unit the apprentice will demonstrate knowledge of clean agent extinguishing systems, their applications and operating principles, installation requirements and associated test procedures. Percent of Objectives and Content: Unit Mark (%) 1. Define terminology associated with clean agent extinguishing systems. 2. Identify hazards and describe safe work practices pertaining to clean agent extinguishing systems. 3. Interpret codes, standards and regulations pertaining to clean agent extinguishing systems. 4. Interpret information pertaining to clean agent extinguishing systems found on drawings and specifications. 5. Identify tools and equipment relating to clean agent extinguishing systems, and describe their applications and procedures for use. 6. Identify clean agent extinguishing systems and describe their operating principles and applications. a. Design of system b. Exposure protection c. Methods of system operation Local application Total flooding Hand directed operation 7. Identify clean agent extinguishing system components and describe their purpose and operation. a. Alarms and indicators b. Life safety provisions c. Discharge nozzles d. Piping and fittings e. Supports 20

f. Tanks and manifolds g. Release mechanisms h. Detection devices i. Pressure relief venting 8. Identify types of clean agent extinguishing systems and describe their characteristics and applications. 9. Describe the procedures used to install and test clean agent extinguishing systems according to manufacturers recommendations. 10. Describe the procedures used to service, maintain and remove clean agent extinguishing systems according to manufacturers specifications. 11. Identify the considerations and limitations pertaining to halon systems. 12. Explain the requirements and procedures for acceptance testing of clean agent extinguishing systems. 13. Describe the procedures used to commission clean agent extinguishing systems according to manufacturers specifications. 14. Demonstrate the operation, installation and test procedures for clean agent extinguishing systems. *** 21

Sprinkler System Installer Unit: E15 Fire Pumps and Controllers Level: Three Duration: 20 hours Theory: Practical: 20 hours 0 hours Overview: Upon completion of this unit the apprentice will demonstrate knowledge of fire pumps and controllers, their operation, selection, installation, maintenance and associated testing requirements. Percent of Objectives and Content: Unit Mark (%) 1. Define terminology associated with fire pumps and controllers. 2. Identify hazards and describe safe work practices pertaining to fire pumps and controllers. 3. Interpret codes, standards and regulations pertaining to fire pumps and controllers. 4. Interpret information pertaining to fire pumps and controllers found on drawings and specifications. 5. Identify tools and equipment relating to fire pumps and controllers, and describe their applications and procedures for use. 6. Explain head pressure as it relates to pumps. 7. Explain the effects of potential problems with fire pumps and describe their solutions. a. Cavitation b. Air pockets c. Rotation d. Drivers e. Rpm f. Pressure relief valves 8. Identify types of fire pumps and describe their principles of operation and applications. 9. Identify fire pump assembly components and accessories and describe their purpose and operation. 22

10. Explain the requirements for installation of strainers and trash screens on raw water sources. 11. Identify the consideration for selecting fire pump assemblies. a. Types of drivers b. Pump and pipe sizing c. Capacity of pumps d. Pressure ratings e. Pump performance f. Fire pump curve (manufacturers ) g. Start mechanisms 12. Identify the installation requirements for fire and jockey pumps. 13. Describe the principles of operation of controllers. 14. Describe the procedures used to install, test and maintain fire pumps and their components. 15. Identify the installation requirements for fuel supply and exhausts of diesel drivers for fire pumps. 16. Describe the procedures used to install, inspect and test controllers. 17. Explain the requirements and procedures for acceptance testing on fire pumps and their components. 18. Describe the procedures used to commission fire pumps and controllers. 19. Demonstrate the operation, selection, installation, maintenance and test procedures for fire pumps and controllers. 23

Sprinkler System Installer Unit: E16 Detection and Signal-Initiating Devices Level: Three Duration: 14 hours Theory: Practical: 7 hours 7 hours Overview: Upon completion of this unit of instruction the apprentice will demonstrate knowledge of the procedures to install, test and maintain detection and signal-initiating devices. Percent of Objectives and Content: Unit Mark (%) 1. Define terminology associated with detection and signal-initiating devices. 2. Identify hazards and describe safe work practices pertaining to detection and signal-initiating devices. 3. Interpret codes, standards and regulations pertaining to detection and signalinitiating devices. 4. Interpret information pertaining detection and signal-initiating devices found on drawings and specifications. 5. Identify tools and equipment relating detection and signal-initiating devices, and describe their applications and procedures for use. 6. Identify types of detection devices and describe their characteristics, parameters and applications. a. Wet and dry pilot lines b. Heat-actuated detectors (HADs) c. Spark detection d. Air sampling and distribution piping e. Electrical detection f. Photo cells 7. Identify types of signal-initiating devices and describe their characteristics, parameters and applications. a. Alarm-initiating b. Supervisory-initiating 8. Describe the procedures used to install, test and maintain detection devices according to manufacturers specifications. 24

9. Describe the procedures used to install, test and maintain signal-initiating devices according to manufacturers specifications. 10. Demonstrate the installation, testing and maintenance of detection and signalinitiating devices. *** 25

Sprinkler System Installer Unit: F1 Inspection, Testing and Maintenance Level: Three Duration: 28 hours Theory: Practical: 21 hours 7 hours Overview: Upon completion of this unit of the apprentice will demonstrate knowledge of the inspection, testing and maintenance procedures and requirements for fire protection/suppression systems and their components, the relationship between sprinkler systems and fire alarm panels, and the procedures to troubleshoot and correct system failures. Percent of Objectives and Content: Unit Mark (%) 1. Define terminology associated with inspection, testing and maintenance of fire protection/suppression systems and their components. 2. Identify hazards and describe safe work practices pertaining to the inspection, testing and maintenance of fire protection/suppression systems and their components. 3. Interpret codes, standards and regulations pertaining to inspection, testing and maintenance of fire protection/suppression systems and their components. 4. Identify tools and equipment relating to inspection, testing and maintenance of fire protection/suppression systems, and describe their applications and procedures for use. 5. Explain the liabilities and responsibilities for the inspection, testing and maintenance of fire protection/suppression systems. a. Manufacturer b. Installer c. Authority having jurisdiction (AHJ) d. Building owner/representative e. Fire watch 6. Identify frequency of inspection, testing and maintenance of fire protection/suppression systems and components. 7. Identify requirements for inspecting and testing systems that have been altered or repaired. 8. Identify types of fire panels and signals, and describe their operation and purpose. a. Panels Alarm 26

Release Annunciator b. Signals Trouble Alarm Supervisory 9. Identify the testing requirements for signaling devices. 10. Describe the procedures used to shut down and reactivate sprinkler systems and associated alarms and supervisory devices. 11. Describe the procedures used to inspect, test and maintain water-based fire protection/suppression systems and components. a. Wet pipe b. Dry pipe c. Antifreeze d. Standpipe and hose valves e. Pre-action f. Deluge g. Combined dry pipe/pre-action 12. Identify the requirements for inspecting, testing and maintenance of specialty fire protection/suppression systems and components. 13. Describe the procedures used to flush sprinkler systems. a. Hydraulic b. Hydro-pneumatic 14. Describe the procedures used to inspect, test and maintain fire pumps and components. 15. Describe the procedures used to inspect, test and maintain hydrants and fire department connections. 16. Identify common causes of fire protection/suppression system failures. 17. Identify the classifications of needed corrections and repairs, and explain the associated requirements. a. Impairment b. Critical deficiency c. Non-critical deficiency d. Recommendations 18. Describe the procedures used to troubleshoot water-based fire protection/suppression systems and perform the related repair procedures. 19. Identify the requirements for inspecting backflow preventers. 20. Demonstrate the inspection, testing and maintenance procedures for fire protection/suppression systems and their components and the procedures to troubleshoot and correct system failures. 27

Sprinkler System Installer Unit: G1 Orientation II: The Job of Journeywork Level: Two Duration: 7 hours Theory: Practical: 7 hours 0 Hours Overview: Sprinkler System Installer Technical Training offers an entry-level orientation to the challenges of apprenticeship learning. The present unit introduces senior apprentices to the responsibilities of workplace teaching that they will assume as supervising journeypersons. Tradeworkers have a particularly rich tradition of refreshing and sharing their skills from one generation of practitioners to the next. This unit orients senior apprentices to some of the practical and conceptual tools that can enable them to contribute to this trade heritage when they themselves become certified journeypersons. The journeyperson s obligation to assist trade learners to develop skills and knowledge is complex and challenging. It involves safety considerations, employer expectations, provincial regulations, as well as the tradition of skills stewardship that links modern practice with the long history of workplace teaching and learning that defines the apprenticeable trades. The ability to offer timely, appropriate support to apprentices is itself an important area of trade learning. This unit presents material intended to help refine this ability through reflection and discussion by senior apprentices, and dialogue with their instructor. The detailed descriptors under each unit objective reflect Manitoba and Canadian standards prescribed for journeylevel supervisory capabilities, as well as key topics in current research on the importance of workplace teaching and learning in trades-apprenticeship systems. Thus, descriptors represent suggested focal points or guidelines for potentially-worthwhile exploration. Delivery of this content will vary with the discretion of individual instructors, and with the experiences senior apprentices bring forward for group/individual reflection on the skills-stewardship dimension of their own future practice as journeypersons. Percent of Objectives and Content: Unit Mark (%) 1. Describe the scope, substance, and significance of journey-level status. 20% a. Historical background, including trainee experiences Origin, definition, and examples of journey-level status Obligations to employers, trade clients, and apprentices Concept of skills stewardship, and its rationale Customary responsibilities of journeyperson as workplace trainer/supervisor Overview development of formal systems for regulating/recognizing journey-level competence in designated apprenticeable trades Contributions of unticketed journeymen and other informally-qualified Ironworkers to workplace trade-learning Achievements/limitations of informal systems for workplace training Trends (e.g. succession planning in the trades; recognition of credentials and prior learning; defined standards for on-the-job trades education and training) i b. Regulatory/legal dimensions of journey-level status in designated trades 28

Manitoba provincial requirements [e.g. Apprenticeship and Certification Act; General Regulation; the Sprinkler System Installer Trade Regulation; relevant policies of the Apprenticeship and Certification Board of Manitoba] Trade-specific requirements re: Practical Training supervision and documentation; importance of quality assurance and broad-scope coverage of prescribed taskcontent; ratios, etc. c. Other (as may be specified by instructor) 2. Compare/contrast role-options and responsibilities of the supervising journeyperson. a. Recognizing the variability of supervision assignments, situations, and roles b. Source and specification of the supervision assignment c. Formal vs. informal roles (e.g. mandated by an employer s succession plan) d. Implicit vs. explicit standards and content: training goals are/are not codified; assessment measures are/are not used, e. Accountability for results: subject/not subject to third-party notification; completion of supervision assignment itself is/is not assessed by third party; journeyperson is/is not required to prepare performance evaluation that could affect apprentice s employability or wage-rate, etc. f. General vs. task- or job-specific supervision assignments: e.g. scope of expectations re: content of supervisory task(s) g. Long-term vs. short-run supervision assignments e.g., considerable latitude/little latitude for apprentice to learn from mistakes h. Formally vs. informally structured e.g. supervision assignment is part of a prescribed cycle of assignments involving coordination among multiple journeypersons; apprentice is trained according to an individual Training Plan negotiated with employer i. Typology of common supervisory role-options and what is implied by each: Coach role: is often initiated by someone other than apprentice, and limited to a particular skill set, task, or production requirement Mentor role : often initiated by apprentice, and relatively open-ended regarding content, duration, etc. Peer role: typically involves individual upgrading or cross-training of one journeyperson by another; can include senior apprentice assisting lessexperienced trade learner Managerial role(s): can shade over into hire/fire issues as lead-hand or site-boss Coordinator role: often a senior-level journeyperson appointed by an organization to assume responsibilities for monitoring progression of groups of apprentices Other roles: may be improvised by journeyperson j. Possibilities, perils, and likelihood of role-overlap in real-life trade practice k. Importance of clarifying all roles, expectations, and implications involved in accepting a supervision assignment l. Role of Apprenticeship Training Coordinator (ATC), Manitoba Apprenticeship Branch m Resources for developing skills and knowledge re: providing journey-level supervision Books and journals (not always trade-specific) Websites Conversation with trade instructors, journeypersons, and peers Workshops n. Other (as may be specified by instructor 20% 3. Describe/demonstrate common requirements re: providing journey-level supervision. 20% 29

a. Review Unit A1 content re: challenges/opportunities opportunities of Apprenticeship learning adapted to journey-level supervision assignments and a journey-level standpoint Application of adult education concepts to trades teaching/learning (e.g. responsibilities and expectations of adult learners) Practical significance of styles of adult learning and teaching Helping apprentices to integrate Technical Training (in school) and Practical Training (on-the-job) learning experiences Providing help and guidance re: new tasks and skills Providing help and guidance re: fixing mistakes Learning/teaching the ropes socialization of learner within a community of trade practice (e.g. how to borrow a tool, interrupt a journeyperson, recruit an advisor ) Coverage/documentation of prescribed tasks and subtasks (Landscape Horticulturist NOA), including responsibility re: logbook sign-off (where applicable) Consultation with Apprenticeship Training Coordinator (ATC), Manitoba Apprenticeship Branch Communicating with apprentices and employers about supervision assignments and assignment specifications, including the limits of the trainers own responsibilities and competence (e.g. substance-abuse intervention) Benefits of maintaining a personal record of achievements, ideas, and needs as a workplace trainer b. Individual reflection and guided group discussion re: personal experiences of workplace learning as an apprentice Identification of best and worst practices of supervising journeypersons Assessment of personal experiences (if any) to date in supervising, coaching, or guiding other people to learn or improve their skills (e.g. entry-level apprentices, members of athletic team, younger family members, etc.), and how this might compare/contrast with the journey-level support of apprenticeship learning Identification of workplace and other factors that can contribute to good and bad trades teaching/learning experiences Development of personal standards re: responsibility to share one s knowledge and skill with others in the workplace (e.g., use/misuse of humour, rigour, discretion, craft-pride, etc.) c. Comparison/contrast of discussion results with current knowledge/resources re: workplace skills coaching methods as applicable to journey-level supervision assignments Qualities of a good workplace coach Components of workplace skills coaching Processes and recommended practices re: workplace coaching Troubleshooting problems re: supervision assignments d. Other (as may be specified by instructor) 4. Complete Modules 1 to 3, Workplace Coaching Skills (or equivalent). 20% a. Identifying purpose of the lesson Explaining the point of the lesson Role of the coach in specific coaching situation Other (specified by instructor) b. Linking the lesson Learner needs Lesson sequence Focus on learner Selection/timing of coaching opportunities c. Demonstration of skill/task to be learned Starting the coaching session Demonstration Hands-on trial 30

Recap for learner 5. Complete Modules 4 to 6, Workplace Coaching Skills (or equivalent). 20% a. Practice of skill/task to be learned Nature and importance of practice Setting up for learner practice Types of practice Recycling and reinforcing skill/task learning b. Providing feedback to the learner Value of feedback Kinds of feedback Guidelines and tips c. Assessment Value of assessing learner progress Assessing level of skill Planning further steps toward skill/task mastery *** 31

Sprinkler System Installer Unit: G2 Pre-Certification Review Level: Three Duration: 35 hours Theory: Practical: 35 hours 0 hours Overview: This unit offers senior apprentices a systematic review of skills and knowledge required to pass the Interprovincial Red Seal Examination. It promotes a purposeful personal synthesis between on-the-job learning and the content of in-school technical training. The unit includes information about the significance of Red Seal Interprovincial certification and the features of the Interprovincial exam. No testing is prescribed for this unit. Instead, a Pass/Fail grade will be awarded upon completion of the unit. Percent of Objectives and Content: Unit Mark (%) 1. Describe the significance, format and general content of Interprovincial (Red Seal) Examinations for the trade of Sprinkler System Installer. a. Scope and aims of Red Seal system; value of certifications b. Obligations of candidates for IP certification Relevance of IP examinations to current, accepted trade practices; industry-based national validation of test items Supplemental Policy (retesting) Confidentiality of examination content c. Multiple-choice format (four-option) item format, Red Seal/Apprenticeship Branch standards for acceptable test items d. Government materials relevant to the IP examinations for apprentice Sprinkler System Installers National Occupational Analysis (NOA); prescribed scope of the skills and knowledge which comprise the trade NOA Pie-chart and its relationship to content distribution of IP examination items Manitoba Apprentice Technical Training, especially the NOA, as these relate to apprentice s coverage of the skills and knowledge of his/her trade 2. Identify resources, strategies and other considerations for maximizing successful completion of written exams. a. Personal preparedness Rest Nutrition Personal study regimen Prior experience in test situations (e.g. Unit Tests) 32

b. Self-assessment, consultation and personal study plan Self-assessment of individual strengths/weaknesses in trade-related skills and knowledge Approved textbooks Study groups 3. Review program content regarding common occupational skills. 4. Review program content regarding math, science and blueprint reading. 5. Review program content regarding water supply installation. 6. Review program content regarding piping installation. 7. Review program content regarding installation of detection, protection and control systems. 8. Review program content regarding service of fire protection systems. *** 33